Sep 20 2009
Ignorance is bliss
“If you think education is expensive, try ignorance!”
– Derek Bok, past president of Harvard
Keep ignoring the quark coincidence.
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What is the quark coincidence? I did a search using the box on the left of the page but only found one passing mention of “quark”.
The quark coincidence can be found in my April 2007 paper under the section heading “A Calculated Value of G”. This was discovered in March 2006, and was used to calculate a G value of 6.6807 x 10^-11 N-m^2/kg^2. Space agencies can simply use 6.68 x 10^-11 N-m^2/kg^2, and it will be good enough for most, if not all, of their calculations which use the gravitational constant.
I found these random questions posted by somebody online, and I don’t understand them very well but thought I’d just put them up here in case any of them make sense and would warrant an answer:
“i came across this theory one day, and have recently re-read it.
a couple of questions i have are;
how does radiation released from the acceleration of an electron differ from that of a positron(i.e any differences due charge?) if any, and what does this imply about the characteristics of gravity for ‘anti-elements’?
can free moving electrons in space therefore be dark matter? (explains why there are no ways to detect it, except for its gravitational effects)”
Studying quantum electrodynamics it eventually becomes clear that among the main purposes is to provide momentum and energy balance for electrons in atomic orbitals. It has said on the splash page of this web site since January 2007 that the positron needs to be replaced by the graviton. The person making the comments must have seen it, so he must just disagree on that point.
As far as anti-elements and dark matter, I don’t see the need for them. The accelerated rate of the expansion of the universe is likely due to some gravitons escaping into deep space. We are constantly losing gravitational energy; call it increasing entropy if you like.